The matrix A has an eigenvalue λ with an algebraic multiplicity of 5 and a geometric...

Let A be a matrix with an eigenvalue λ that has an algebraic multiplicity of k,...

Let A be a matrix with an eigenvalue λ that has an algebraic multiplicity of k, but a geometric multiplicity of p < k, i.e. there are p linearly independent generalised eigenvectors of rank 1 associated with the eigenvalue λ, equivalently, the eigenspace of λ has a dimension of p. Show that the generalised eigenspace of rank 2 has at most dimension 2p.

Explain what it means by the algebraic multiplicity and the geometric multiplicity of an eigenvalue. What...

Explain what it means by the algebraic multiplicity and the geometric multiplicity of an eigenvalue. What the relation between both multiplicities?

True/False? If 0 is an eigenvalue of a 3x3 matrix A with geometric multiplicity ug(A,0)=3, then...

True/False? If 0 is an eigenvalue of a 3x3 matrix A with geometric multiplicity ug(A,0)=3, then A is the zero-matrix, that is A=0 The answer is True, but I don't understand why.

Explain the distinction between algebraic multiplicity and geometric multiplicity of a matrix. Justify your answer (explain)...

Explain the distinction between algebraic multiplicity and geometric multiplicity of a matrix. Justify your answer (explain) These questions follow the exercises in Chapter 4 of the book, Scientic Computing: An Introduction, by Michael Heath. They study some of the properties of eigenvalues, eigenvectors, and some ways to compute them.

Let P be a stochastic matrix. Show that λ=1 is an eigenvalue of P. What is...

Let P be a stochastic matrix. Show that λ=1 is an eigenvalue of P. What is the associated eigenvector?

Use the power method to determine the highest eigenvalue and corresponding eigenvector for [ (2-λ) 8...

Use the power method to determine the highest eigenvalue and corresponding eigenvector for [ (2-λ) 8 10; 8 (4-λ) 5; 10 5 (7-λ)] (By hand with handy formulas please)

v is an eigenvector with eigenvalue 5 for the invertible matrix A. Is v an eigenvector...

v is an eigenvector with eigenvalue 5 for the invertible matrix A. Is v an eigenvector for A^-2? Show why/why not.

2. ?̇=??, ?= [3 −18 ; 2 −9]. (1) Find the eigenvalue of multiplicity two and...

2. ?̇=??, ?= [3 −18 ; 2 −9]. (1) Find the eigenvalue of multiplicity two and their corresponding (generalized) eigenvectors ?1= [3;?] and ?2= [?;0] respectively. (2) Let ?= ?^−1??.Find the matrix B. (3) Find ???. (4) Find the general solution of ?̇ = ??. (5) Let ?=??.Find the general solution of ?̇ = ??. (6) Find the solution with initial values x(0) =[4; 1].

Let A  =  58 9 1 9 20 9 59 9 A has λ  =  7...

Let A  =  58 9 1 9 20 9 59 9 A has λ  =  7 as an eigenvalue, with corresponding eigenvector   1 5  , and λ  =  6 as an eigenvalue, with corresponding eigenvector   −1 4  .  Find the solution to the system y′1   =   58 9  y1  +  1 9  y2 y′2   =   20 9  y1 +   59 9  y2 that satisfies the initial conditions y1(0)  =  0 and  y2(0)  =  3. What is the value of y1(1)

Which of the following are NECESSARY CONDITIONS for an n x n matrix A to be...

Which of the following are NECESSARY CONDITIONS for an n x n matrix A to be diagonalizable? i) A has n distinct eigenvalues ii) A has n linearly independent eigenvectors iii) The algebraic multiplicity of each eigenvalue equals its geometric multiplicity iv) A is invertible v) The columns of A are linearly independent NOTE: The answer is more than 1 option.